eigensound | GR/QM - Quantum-Relativistic Sound Synthesis

Control Center

Master Volume

50%

Intensity Boost

100%

Dynamic Range

70%

Physics Mode

Normalization Mode

Waveform Type

Enhanced Evolution System

Evolution Speed

0.10

Evolution Intensity

0.3

Evolution Type

Export/Import

📥 Import

Physics Presets

Quantum Parameters

Uncertainty Principle (ℏ)

0.50

Coherence Time

0.80

Entanglement

0.30

Wave Packet Width

0.60

Relativistic Parameters

Spacetime Curvature

0.40

Time Dilation

0.20

Gravitational Redshift

0.30

Event Horizon Effect

0.50

Advanced Physics

Decoherence Rate

0.10

Vacuum Fluctuations

0.20

Hawking Radiation

0.00

Cosmic Background

0.15

Quantum Tunneling

0.00

Spacetime Ripples

0.00

Dark Energy

0.05

Information Loss

0.00

Sound Parameters

Base Frequency (Hz)

440Hz

Harmonics

Amplitude

0.50

Filter Q

Parameter Relationships & Physics Interactions

Quantum-Relativistic Coupling

Uncertainty × Curvature:

0.20

Entanglement × Redshift:

0.09

Coherence × Time Dilation:

0.16

Advanced Physics Impact

Hawking Temperature:

0.35

Tunneling Probability:

0.00

Spacetime Distortion:

0.28

Real-time Physics Visualization

Quantum State

Uncertainty:

50%

Coherence:

80%

Entanglement:

30%

Relativistic State

Curvature:

40%

Time Factor:

0.80

Redshift:

0.70

Eigensound GR/QM Physics Guide

Quantum Mechanics

Uncertainty Principle: Higher values create more chaotic, unpredictable sound patterns as quantum measurements become less precise.

Coherence Time: Determines how long quantum states maintain their phase relationships before environmental decoherence.

Entanglement: Correlates harmonic frequencies non-locally - changing one affects others instantaneously.

Wave Packet Width: Controls the spatial extent of quantum wave functions, affecting interference patterns.

General Relativity

Spacetime Curvature: Creates frequency modulation simulating how curved spacetime affects wave propagation.

Time Dilation: Slows temporal evolution, showing how time passes differently in gravitational fields.

Gravitational Redshift: Lowers frequencies as if sounds are climbing out of gravitational wells.

Event Horizon: Simulates extreme redshift effects near black hole boundaries.

Advanced Physics

Decoherence Rate: Controls how quickly quantum coherence is lost due to environmental interactions.

Vacuum Fluctuations: Adds quantum noise from zero-point energy fluctuations in empty space.

Hawking Radiation: Simulates thermal radiation from black holes, adding characteristic noise patterns.

Cosmic Background: Incorporates subtle effects from the cosmic microwave background radiation.

Quantum Tunneling: Probability of quantum particles passing through energy barriers, creating amplitude spikes.

Spacetime Ripples: Gravitational wave distortions that modulate frequency and amplitude.

Dark Energy: Cosmic expansion effects that subtly influence sound evolution over time.

Information Loss: Black hole information paradox effects creating sudden amplitude changes.

Parameter Interactions

Quantum-Gravity Coupling: Shows how quantum uncertainty and spacetime curvature interact.

Entanglement-Redshift: Demonstrates how quantum correlations are affected by gravitational fields.

Hawking Temperature: Calculated based on black hole mass and horizon effects.

Tunneling Probability: Quantum tunneling likelihood modified by decoherence.

Spacetime Distortion: Combined effects of curvature, gravitational waves, and dark energy.

Evolution System

Drift: Slow random walk changes over time.

Oscillation: Periodic sine wave variations.

Chaos: Complex multi-frequency chaotic behavior.

Decay: Exponential decay with fluctuations.

Growth: Gradual growth with saturation.

Spiral: Spiral patterns combining frequency and amplitude changes.

Scientific Accuracy

All effects are based on established physics equations, though simplified for real-time audio synthesis. The app demonstrates fundamental incompatibilities between quantum mechanics and general relativity while incorporating cutting-edge theoretical concepts.

eigensound | gr/qm

Control Center

Physics Presets

Quantum Parameters

Relativistic Parameters

Advanced Physics

Sound Parameters

Parameter Relationships & Physics Interactions

Quantum-Relativistic Coupling

Advanced Physics Impact

Real-time Physics Visualization

Quantum State

Relativistic State

Eigensound GR/QM Physics Guide

Quantum Mechanics

General Relativity

Advanced Physics

Parameter Interactions

Evolution System

Scientific Accuracy

Audio Recording